Evolution and Speciation in Fungi and Eukaryotic Biodiversity

Evolution and Speciation in Fungi and Eukaryotic Biodiversity
Author :
Publisher : CRC Press
Total Pages : 349
Release :
ISBN-10 : 9781000996661
ISBN-13 : 1000996662
Rating : 4/5 (662 Downloads)

Book Synopsis Evolution and Speciation in Fungi and Eukaryotic Biodiversity by : T. J. Pandian

Download or read book Evolution and Speciation in Fungi and Eukaryotic Biodiversity written by T. J. Pandian and published by CRC Press. This book was released on 2023-10-13 with total page 349 pages. Available in PDF, EPUB and Kindle. Book excerpt: Being sessiles like autotrophic plants and heterotrophics as animals, fungi are fascinating eukaryotes. In them, the need for external digestion has demanded surface expansion and limited tissues to 2/y. The mycorrhizas facilitate 85% angiosperms to acquire water and minerals, enhance productivity and fight against drought and pollutants. During the geological past, lichens have weathered rock and formed the present landscape. Only 121 fungal species excrete digestive enzymes to meet industrial demand. The beneficial fungi contribute 1,000 billion US$. Parasitic fungi cause 1.6 million human deaths and > 20% loss of commercial crops. Despite their ecological and economic importance, no university offers a degree course in Mycology. For 2,056,907 eukaryotic species, this book elaborates the role played by environmental factors (i) spatial distribution, (ii) light-temperature, (iii) precipitation-liquid water and biological attributes, (iv) cellularity, (v) symmetry, (vi) clonality, (vii) sexuality, (viii) modality and (ix) motility that either accelerate or decelerate biodiversity. About 20 and 80% eukaryotes are aquatics and terrestrials. Decreasing light intensity and temperature reduce diversity from the equator toward the polar zones. Water availability also reduces the diversity from 5.4 - 65.5 species/km2 in tropical evergreen forests to 2 in deserts and polar zones. Unicellularity and radial symmetry decelerate the diversity to 200 in mammals reduce clonality from 100 to 0%. Strategies developed by eukaryotes reduce selfing by


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